SIGNALS AND SYSTEMS

About this Course

  • 1 students enrolled
  • 9 instructors

Course Description

Signals and Systems provides a comprehensive coverage on the basics and fundamentals of linear signals and systems as well as applied mathematical concepts; continuous-time signals and systems, Fourier series, differential equations and Laplace transform. This course also provides specifically designed exercises and examples with clear illustrations to further assist student in achieving the best learning experience. Students will be able to classify signals and systems as well as perform signal manipulations, express periodic signal into Fourier series representation and even be able to obtain system responses using differential equations and Laplace transform with application to electrical circuits.

Course Learning Outcomes

1 ) Construct a symmetrical signals using appropriate modern engineering tools involved in electronic system engineering activities
2 ) Analyse the performance of linear time invariant (LTI) continuous-time systems in basic electronic system engineering problem
3 ) Explain the significance of signals and systems concepts to basic electronic system engineering

Course Details

STATUS : Open
DURATION : FLEXIBLE
EFFORT : 3
MODE : 100% Online
COURSE LEVEL : Beginner
LANGUAGE : English
CLUSTER : Science & Technology ( ST )

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 Syllabus

+Classification of signals: continuous/discrete time signal, deterministic/random signals & periodic/aperiodic signals
+Representation of signals: singularity function, unit-step function, unit-ramp function, unit-impulse function,
piecewise-continuous function
+Manipulation of signals: differentiation/integration of signals, transformation of signals
+Classification of systems: memory/memoryless system, causal/non-causal system, time-invariant/time variant system,
linear/nonlinear system, deterministic/stochastic system, continuous/discrete time system

+Solution of LDE using undetermined coefficients
+Homogeneous & particular solution, zero-input
+Applications of LDE on electrical circuits

+introduction trigonometry and exponential Fourier series
+Relationship between trigonometric Fourier series and exponential Fourier series
+Symmetry properties, effect of symmetry
+Frequency spectrum

+Definition, Unilateral Laplace transform, properties of Laplace transform
+Inverse Laplace transform, partial fraction expansion, Laplace transform table
+Solution of LDE using Laplace transform method

Our Instructor

PROFESOR MADYA IR DR NOR AZLAN BIN OTHMAN

 Course Instructor
UiTM Kampus Permatang Pauh

DR. AFAF ROZAN BINTI MOHD RADZOL

 Course Instructor
UiTM Kampus Permatang Pauh

DR. ZURAIDA BINTI MUHAMMAD

 Course Instructor
UiTM Kampus Permatang Pauh

DR. ROZAN BOUDVILLE

 Course Instructor
UiTM Kampus Permatang Pauh

PROFESOR MADYA DR MUHAMMAD KHUSAIRI BIN OSMAN

 Course Instructor
UiTM Kampus Permatang Pauh

IR. DR. MOHAMAD FAIZAL BIN ABD RAHMAN

 Course Instructor
UiTM Kampus Permatang Pauh

 Frequently Asked Questions

A1 : The course primarily focuses on the analysis and design of systems that process signals. This includes understanding both continuous-time and discrete-time signals and systems, and applying mathematical tools like Fourier transforms, Laplace transforms, and Z-transforms to analyze these systems.

A2 : Typically, students need a solid foundation in calculus, linear algebra, and differential equations. Some courses may also require prior knowledge of basic electrical engineering concepts and programming skills.

A3 : The skills learned in this course are applicable in various fields such as telecommunications, control systems, signal processing, and even in areas like finance and biomedical engineering. Students can design and analyze systems using filter, compress, and transmit signals.